Scrum-Based Application for Agile Project Management
André Luiz Garcia, Iury da Rocha Miguel, Jonathan Brendon Eugênio, Marina da Silva Vilela, Guilherme Augusto Barucke Marcondes*
National Institute of Telecommunications – Inatel, 510 Joao de Camargo Av., 37540-000 Santa Rita do Sapucai, MG, Brazil. * Corresponding author. Email: [email protected] Manuscript submitted July 28, 2019; accepted November 15, 2019. doi: 10.17706/jsw.15.4.106-113
Abstract: Nowadays on projects there are a lot of data and requirements involved. Agile methodology can
contribute significantly and in an organized way. One important tool for it is Kanban, a board that project
team can easily view task status and evolution. This article presents a mobile application developed for
delivering Kanban functionality in a project management software (Jira). The application was developed to
help the day-by-day processes and a final survey demonstrated that the result was positive, according to the
interviewed people.
Key words: Agile methodologies, Jira mobile, scrum, Kanban board.
1. Introduction
Nowadays on projects involving software development is necessary to keep control over all activities,
because a lot of data and requirements are involved and it requires levels of productivity and quality [1].
For helping in this task agile methodology can contribute significantly and in an organized way.
There are many agile methodologies proposed. Scrum, one of the most popular of these methodologies
[2], is used in some experiments with great results. In [3], Scrum was applied in the process of creating an
optimization algorithm in the class of evolutionary computation. In [4], it was applied for developing
SCRUMI, an electronic board serious game for teaching Scrum framework concepts.
Scrum uses many tools for keeping control under all activities. One of them is Kanban, which is a board
for exhibiting each issue status in a project. As presented in [5] it brings visibility for activities and helps to
improve development flow, increasing team communication and facilitating coordination.
Kanban is supported by some online project management softwares, like Trello and Jira. The focus of this
paper is on Jira, that is a tool with planning capabilities. It allows the project manager to plan activities that
need to be done flexibly, involving all team in working together for ending task [6]. Kanban functionality in
online Jira works very well, but sometimes it isn’t practical due to browsers and network connection
dependence.
Based on it, the purpose of this work was the development of a mobile application for helping daily
processes for those who use Scrum through Jira mobile. It was developed using Ionic 3.2 and Node 8. The
programming languages chosen was TypeScript, HTML (Hypertext Markup Language) and SCSS (Sass
Cascading Style Sheets). The application was presented to Jira users (development team members and
project managers) for a survey to check results: application functionalities, users experience, performance
and usefulness.
106 Volume 15, Number 4, July 2020
Journal of Software
This paper is structured as following: in Section 2, agile methodology is explained, giving more details
about Scrum, Kanban and Jira tool;; in Section 3, developed application is presented, introducing the
Kanban application flow and some screenshots; in Section 4 presents the results of the survey of application
feedback; and finally the conclusions in Section 5.
2. Agile Methodology
In modern economy, it is hard to predict how a computer system will evolve over time, since conditions
(market, user needs, competition agreements, etc.) change rapidly. Users can’t define all the requirements
before the project starts and for this reason software engineers must be agile enough to respond to a
changing business environment.
Therefore, agility is an important methodology where “continuous iterations and testing take place
during the entire Software Development Life Cycle (SDLC) of a product” [7]. There are many agile
methodologies: XP (eXtreme Programming), ASD (Adaptive Software Development), DSDM (Dynamic
Systems Development Method), Scrum, Crystal, FDD (Feature Driven Development) and AM (Agile
Modeling).
The focus of this work was on Scrum, once it is one of the most popular agile methodologies in the market
[2].
2.1. Scrum
Scrum is based on many principles: small work teams to maximize communication and knowledge
sharing and minimization of supervision, adaptive to modifications, available frequent software increments,
divided tasks and constant tests and documentation. Table 1 presents a comparison among Scrum and
other agile methodologies [7].
Table 1. Comparison between Scrum with others Agile Methodologies [7]
Scrum Others
Productivity is given topmost priority leading to customer satisfaction and is more flexible
XP: Less flexible and production isn’t given much priority
Effective communication among team members, less complexity involved
FDD: Less communication and more complex procedures involved
Better communication amongst team members DSDM: Less communication amongst team members
Procedures followed are easy and complex ASD: Complexity in procedural structure
User requirements strictly define development and planning, better traceability
Crystal: Less considerate about user requirements and difficult to trace the work done
"Scrum has gained its popularity in recent few years and has proven to be quite useful" [7]. Scrum focuses
on productivity through plan solutions. It provides an efficient process in cases of requirements change,
because requirements always change. Scrum is used in teams that can focus entirely on the development of
the project or a product in hand, providing a reduction communication cost and increase quality for
problems solution [5].
There are some important definitions in agile methodologies: Backlog, Sprint, Demos and Daily Meetings.
• Backlog: Priority list of requirements that will add value to the business. Items can be included at any
time, and priorities can be changed [8];
• Sprint: Work unit needed to meet a requirement set in the backlog (typically lasting 30 days). During a
sprint, the associated backlog (sprint backlog) does not change [8];
• Demos: Deliverable to the customer, for evaluating functionalities [8];
• Daily meetings: Short meetings (typically 15 minutes) for addressing three basic questions: What has
been done since the last meeting? What obstacles were found? What are planned to do before the next
107 Volume 15, Number 4, July 2020
Journal of Software
meeting? [8].
For helping in daily meetings, a Kanban board can be presented to team members, giving a broad vision
of tasks status. It shows easily what tasks are concluded or on going (informing in which step).
2.2. Kanban
Kanban is a board that helps to keep activities sharing working well. It is a task board that allows
evaluation and planning of the project, while also being able to keep-held the manager of projects aware of
progress of tasks that are in developed [9].
It supports following the progress of tasks, verifying what has to be done, what is being done, what is in
testing phase, what is already finished, depending on the need of the project.
Kanban has some variations, depending of necessity of those who use, for example if the team needs to do
documentations, tests, prototypes, and reports. Fig. 1 shows Kanban columns proposed by this work.
Fig. 1. Kanban Columns contained in application.
When a task is created, its initial state is "to do" and when its execution is fully finished its state is "done".
Users can move tasks according with their progress in project, assuming intermediate states as "doing", "to
test" and "testing". Tasks can be dragged to the next state by the team member responsible for their
execution. Everyone who has permission to access the projects task list can verify what is pending and what
has been done so far.
2.3. JIRA
Growing up day by day in the software projects industry, JIRA, created by Atlassian in 2002, is a work
item investigator widely used for tracking software bugs and schedules and is also commonly used for agile
projects [6]. Powerful closed software helps in many projects based in agile methodology, because due to
the possibility to document what are the pending tasks, with all of their properties and attributes. It is a
software designed for each member of the application development team to plan, track and bid great
software products [6].
The plan is to create tasks, plan sprints and distribute tasks for the entire team, with the possibility to
prioritize and discuss the work being done in that context with full visibility. From there, the involved team
can use Kanban board for to signal what is happening in project on real time [6].
3. Developed Application
Nowadays, in mobile application market, the most widespread operational systems are Android and iOS
[10]. Due to it, it is more advantageous and competitive a developer that dominates both platforms, which
takes time and dedication. In order to assist in this issue and to increase the productivity of these
developers, tools were developed to enable creating applications that could be used on both platforms,
without specific coding for each one.
These applications are called hybrid, precisely because they can be exported to more than one platform
from a single code without any changes. Instead of being developed in Java for the Android platform and
Objective-C for iOS platform, they are built based on HTML, CSS (Cascading Style Sheets) and JavaScript and
can be exported and made available in the platform-specific application stores.
The following subsections present:
• Ionic - a mobile application development framework targeted at building hybrid mobile apps;
108 Volume 15, Number 4, July 2020
Journal of Software
• Node - a platform for executing JavaScript codes in the server side;
• HTML – a markup language for developing web pages;
• TypeScript – extension for complex JavaScript codes;
• SCSS – a scripting language preprocessed in open-source Cascading Style Sheets for describing the
presentation of HTML documents.
The developed application was based in Scrum, containing Kanban Board. It was integrated to JIRA server
and includes drag-and-drop functionality for users (which is one of the most important features for a
Kanban tool).
3.1. Flow Chart
The following flowchart (Fig. 2) describes application functionalities. In the first step it is necessary
logging in the application in order to check if user has registration and authorization to operate it. After that,
user is validated and can see the list of projects. They can choose the action from the list: create a new
project, edit or delete an existing project or edit a task. If the user wants to edit a task, it is necessary to
select the project from which this task belongs and when it is accessed, the creation, editing or deletion task
can be performed. After this flow, user can remain in the project or return to list menu of all projects.
Fig. 2. Flow chart.
109 Volume 15, Number 4, July 2020
Journal of Software
3.2. Application
Based on the technologies previously described, an application was developed for implementing Kanban
board integrated to Jira project management system. This application can be used on both iOS or Android
system. The tests conducted for this work were only over Android, using a test environment from a real JIRA
set in Inatel Competence Center (a service provider branch of National Institute of Telecommunications, in
charge of developing projects and delivering engineering services for companies).
Fig. 3 shows an example of an application’s task list.
Fig. 3. Task list.
4. Evaluation Survey
It was planned an evaluation survey to verify if the developed application can contribute with day by day
of different kind of workers (involved in project development). 30 people were interviewed, being (all of
them involved in projects applying Scrum agile methodology): 5 project manager (two of them with PMP -
Project Management Professional certification); 15 software developers; 10 other project team members.
From the total of interviewed people, 83.33% of them know and used Kanban, 13.3% only know and the
remaining don't know, but heard about Kanban board. Also from the total, 33.33% of the users used JIRA for
less than one year, 23.33% for up to 3 years, 20% used for more than 3 years and 23.33% never used JIRA.
Interviewed people were invited to classify four different statements as: Fully agree; Partially agree;
Partially disagree; Fully disagree.
For the statement “within the conditions specified for testing, the application satisfies the functional
needs”, 66.66% of people fully agreed and 33.33% partially agreed.
For the statement “within the conditions specified for testing, the application can be understood, learned
and used easily”, the answers were: 63.33% fully agreed and 36.66% partially agreed.
For the statement “within specified test conditions, the application provided an appropriate, fast and
clear performance for its features”, interviewed people answered: fully agree (66.66%) and partially agree
(33.33%) (Presented in Fig. 4).
For the level of satisfaction in using the developed application, the statement was “the application met my
expectations and would be of great help for my day to day work”. The answers were 60% of interviewed
people fully agreed, 36.66% partially agreed and 3.34% partially disagreed (Presented in Fig. 5).
Survey was concluded asking the users if they had suggestions for possible improvements of application
and some of them answered the following items:
• Show the beginning and ending time of each task that was moved in Kanban board until everything
gets done;
• Generate a burndown chart, helping team to see project evolution (burndown chart helps the
110 Volume 15, Number 4, July 2020
Journal of Software
developers showing the amount of work that has been completed and the total work remaining);
• Provide a field for doing internal comments about what was done;
• Improve the way of cards are dragged to next/previous column, for example using two fingers, instead
of clicking on application screen with just a finger the user has the possibility to edit task;
• Enable full visualization of Kanban, in full screen, to better viewing tasks as a whole;
• Generate a report in .PDF (Portable Document Format);
• Include delivery dates of activities and signalizing with different colors tasks within deadline and to the
ones delayed;
• Use screen scroll with two fingers and movement Kanban cards with a finger, for instance, for no
conflicts.
Fig. 4. Satisfaction with efficiency.
Fig. 5. Satisfaction with application.
5. Conclusion
Agile methodologies present benefits for managing complex projects. Kanban is an important tool for
supporting it. There are some software applications for helping project team in managing projects, as Jira.
But, its mobile application doesn’t support Kanban framework.
Based on this, it was proposed and developed an application for facilitating the control activities carried
out in the company's projects, with Kanban. Application was developed in Ionic, a framework that uses web
development language to develop hybrid applications.
A survey was carried out to verify users’ acceptance of it. The results presented that most of interviewed
people approved the application. It indicated that its use could help project team in following activities in a
visual way, as provided by Kanban.
During the survey, people also suggested improvements to application. All of them could be considered
future work.
111 Volume 15, Number 4, July 2020
Journal of Software
The limitation of this work is related to the application of the survey about the application, which was
restricted to two different companies. For future work, survey could be applied to more different companies.
Additionally, some feature improvement (as suggested in survey) could be developed.
Based on the findings, the authors suggest the use, in agile project development teams, which uses Jira
tool, this application for helping project management and follow-up.
Conflict of Interest
The authors declare no conflict of interest.
Author Contributions
Garcia, A. L. worked on literature review, tested the application, applied the survey, and wrote and revised
the paper. Miguel, I. R. worked on application requirements, coded the application and. tested the
application. Eugênio, J. B. worked on literature review, worked on application requirements, and coded the
application. Vilela, M. S. worked on literature review, worked on application requirements, applied the
survey, and wrote and revised the paper. Marcondes, G. A. B. acted as research advisor, wrote and revised
the paper, and analyzed the data. All authors had approved the final version..
References
[1] Carvalho, W. C. S., Rosa, P. F., Soares, M. S., Cunha, M. A. T., & Buiatte, L. C. (2011). A comparative analysis
of the agile and traditional software development processes productivity. Proceedings of 30th IEEE
International Conference of the Chilean Computer Science Society (pp. 74-82).
[2] Rubin, K. S. (2013). Essential scrum: A practical guide to the most popular agile process. Addison
Wesley.
[3] Ounsrimuang, P., & Nootyaskool, S. (2017). Introducing scrum process optimization. Proceedings of
IEEE International Conference on Machine Learning and Cybernetics (pp. 175-181).
[4] Souza, A. D., Seabra, R. D., Ribeiro, J. M., & Rodrigues, L. E. S. (2017). SCRUMI: A board serious virtual
game for teaching the SCRUM framework. Proceedings of 39th IEEE International Conference on
Software Engineering Companion (pp. 319-321).
[5] Ahmad, M. O., & Oivo, J. M. M. (2016). Insights into the perceived benefits of Kanban in software
companies: Practitioners’ views. Proceedings of International Conference on Agile Software Development,
Edinburgh, United Kingdom (pp. 156-168).
[6] Filion, L., Daviot, N., Bel, J. P. L., & Gagnon, M. (2017). Using Atlassian tools for efficient requirements
management: An industrial case study.
[7] Srivastava, A., Bhardwaj, S., & Saraswat, S. (2017). SCRUM model for agile methodology. Proceedings of
IEEE International Conference on Computing and Automation (pp. 864-869).
[8] Pressman, R., & Maxim, B. (2006). Software Engineering. McGraw-Hill: São Paulo, pp. 69-70.
[9] Bacea, I. M., Ciupe, A., & Meza, S. N. (2017). Interactive Kanban – Blending digital and physical
resources for collaborative project based learning. Proceedings of 17th IEEE International Conference on
Advanced Learning Technologies (pp. 210-211).
[10] Goadrich, M. H., & Rogers, M. P. (2011). Smart smartphone development: IOS versus android, ACM New
York, NY, USA.
Garcia, A. L. received his BsC. in computer engineering and he is interested in
entrepreneurship, social work, technology and education. He is working with technologies
focused on networks and information security, as a front-end software developer.
112 Volume 15, Number 4, July 2020
Journal of Software
Miguel, I. R. received his BsC. in computer engineering. He is working on mobile
applications, desktop and backend projects development. He is studying cloud computing
and mobile development as specialization. Also, he is an enthusiast in new technologies and
creating softwares.
Eugênio, J. B. received his Bsc. in computer engineering. He is an enthusiast in artificial
intelligence and machine learning, gamer in spare time. He is working on Chat Bots and
web development projects.
Vilela, M. S. received her BsC. in computer engineering. She is passionate about technology,
innovation, communication, project management, social responsibility, and sustainability;
she has professional experience as a technical assistant (providing software maintenance
and improvements, SQL development and customer support), and she is a student of MBA
in strategic management in business environment.
Marcondes, G. A. B. received his BsC. in electrical engineering, the MsC in
telecommunications and the PhD in production engineering, specialization in
administration, certified as PMP by PMI. He is a full professor at National Institute of
Telecommunications. He has over 20 years of experience in R&D in information technology
projects, project management and business.
113 Volume 15, Number 4, July 2020
Journal of Software